DE405060C - Cinematograph with optical compensation for image migration through a ring of compensating links - Google Patents

Description

(P 41000

The invention relates to a cinematograph with a continuously moving image carrier and optical compensation of the image migration.

It is already known that the optical compensation in cinematographs with continuously moving Image support by two conaxial wreaths that revolve around the same axis and each consist of two parallel surfaces To effect compensation elements in which the reflective surfaces in the radial direction are arranged one behind the other.

The essence of the present invention is that the rings in axial Direction are side by side and circulate in the opposite direction.

This arrangement has the advantage of the larger one over the known arrangement Simplicity without compromising the path of the rays of light through the movement of the balancing members is changed and the light beam to pass through prism locations of different thicknesses Has.

In the drawing are those

Fig. I, 2, 3 and 4 graphical representations, which represent the principle on which the invention works.

Fig. 5 is a rear view of the machine according to the invention.

Fig. 6 is a section along the line S-S of Figs. 5 and

Fig. 7 is a schematic view of a minor modification showing the application an adjustable lens shows.

The basic idea, which is known per se, will first be explained. A double reflective prism P (Fig. 1) of rhomboid shape has two opposing reflective surfaces and, when it is rotated about the axis AB , bites an object which, viewed from C , moves in a circle. However, the reflected image, although it rotates around axis A , does not rotate around its own axis, but is steadily held in a certain relative position.

This property is shown in Fig. 2, in which the object, an arrow, is mirrored on axis A at 1. By turning the prisms / ³ at 2 and 3, the mirrored arrow always remains parallel with the object at A, although it moves in the arc CC .

When applying this principle to a cinematograph, in order to compensate for the constant movement of the image carrier, the curved path that the projected image takes must be compensated and the image must be forced to follow a straight path. This is achieved by a second prism similar to the first, but rotating in the opposite direction at the same speed. Figure 3 shows how this is accomplished. When the first prism rotates around the axis A in the direction of the arrow, the object is mirrored at O at points ι to 5 on the curvature CC. A second prism, which is located in the

opposite direction rotates around the axis B i and is arranged above the first prism, as shown in cross section in Fig. 4, the image from the positions 1 to 5 on the curved line CC in the positions ι to 5 on the straight line Reflect line RR and at the same time enlarge the path of the reflected object.

On the other hand, an object moving on the straight ίο line RR from positions 1 to 5 can be thrown to positions 1 to 5 on the curved line CC by rotating the prism around axis B and then at O by rotating the second prism in the opposite direction Direction on the axis A can be brought into a fixed position. In this way, an image on an image carrier which moves along a straight path can appear to be stationary. The drawing (Fig. 1 to 4) shows two prisms that rotate around two different axes.

However, the device explained above is only intended to explain the general | Basic idea. The actual subject matter of the invention is described below will. 1

The result described above can be achieved in a simple manner by 1 that the two prisms are on the same axis but in opposite directions Turn the device as shown in Figs. 5 and 6. I.

In Fig. 6, 5 is the drum moving the image carrier, which is rotated by a handle 14 and the hollow shaft 10. A ring of double reflecting prisms 4, which are fastened close together, sits on the same drum and rotates with it when the latter is set in motion. A second rotatable part 6, which also carries a row of identical prisms, is rotatably seated _; on the fixed shaft 9. The drum 5 and j the part 6 are both with the spur gears 11 ^! connected, which mesh with the gears 8, which are seated on the pin 7 wedged onto the shaft 9. This allows the prisms of part 6 to rotate in the opposite direction to the prisms of drum 5 when the latter is rotated, with both rows of prisms rotating at the same speed. :

ι is the image carrier, 2 the image carrier: leadership with an opening through which the j Light rays from the intensifier lens 12 to the fixed right-angled prism 3 ■ pass through which they near the prism j men 4 deflects on the drum 5, from which the rays are reflected twice, before they get to the prisms 4 of part 6. From these the rays follow the projection lens 13. The image carrier is guided around the roller 16, which for It is used to center the film in the image window.

The prisms 4 (Fig. 5) are arranged radially and butting against one another on the drum, so that the inner part of the prisms must be narrower than the outer. The beam path is chosen so that the light source is between the inner reflective surfaces of the two prism rings, as shown in Fig. 6. Consequently the light rays converge within the prisms and placed on the drum 5 diverge within the prisms of the member 6, the prisms all light rays which fall on the outer surface of the prisms on the drum.

As shown in Fig. 7, a thin lens 17 is so between the prism 3 and the first prism ring 4 arranged to be displaceable that they either with their center or with the edge zones in the rays. As a result of the influence of the spherical Aberration of this lens can so increase the size by which the prisms move the image compensate, be changed and thus be adapted to the changing image height due to the shrinkage of the film.

Claims (3)

Patent Claims: i. ! Cinematograph with steadily moving Image carrier and with optical compensation of the image migration through two conaxial ones that revolve around the same axis Wreaths of compensating elements, each consisting of two parallel surfaces, in which the reflective surfaces in 10c are arranged one behind the other in the radial direction, characterized in that the rings lie next to one another in the axial direction and circulate in the opposite direction. 2. Kinematograph according to claim 1, characterized in that the light beams intersect between the inner reflective surfaces of the prism rings. 3. Kinematograph according to claim 1, characterized in that the two Element disks rotated in opposite directions by a differential gear will. 1 sheet of drawings.